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Literature DB >> 28318376

Advances in on-chip vascularization.

Abstract

Microfluidics is invaluable for studying microvasculature, development of organ-on-chip models and engineering microtissues. Microfluidic design can cleverly control geometry, biochemical gradients and mechanical stimuli, such as shear and interstitial flow, to more closely mimic in vivo conditions. In vitro vascular networks are generated by two distinct approaches: via endothelial-lined patterned channels, or by self-assembled networks. Each system has its own benefits and is amenable to the study of angiogenesis, vasculogenesis and cancer metastasis. Various techniques are employed in order to generate rapid perfusion of these networks within a variety of tissue and organ-mimicking models, some of which have shown recent success following implantation in vivo. Combined with tuneable hydrogels, microfluidics holds great promise for drug screening as well as in the development of prevascularized tissues for regenerative medicine.

Entities: Disease

Keywords: angiogenesis; microfluidics; microvasculature; organ-on-a-chip; permeability; regenerative medicine; tissue-engineering; vasculogenesis

Mesh：

Year: 2017 PMID： 28318376 PMCID： PMC5574321 DOI： 10.2217/rme-2016-0152

Source DB: PubMed Journal: Regen Med ISSN： 1746-0751 Impact factor: 3.806

95 in total

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Authors: Dekel Rosenfeld; Shira Landau; Yulia Shandalov; Noa Raindel; Alina Freiman; Erez Shor; Yaron Blinder; Herman H Vandenburgh; David J Mooney; Shulamit Levenberg
Journal: Proc Natl Acad Sci U S A Date: 2016-03-07 Impact factor: 11.205

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Journal: Cell Res Date: 2013-04-23 Impact factor: 25.617

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9. Ensemble analysis of angiogenic growth in three-dimensional microfluidic cell cultures.

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Journal: PLoS One Date: 2012-05-25 Impact factor: 3.240

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Authors: Hidekazu Sekine; Tatsuya Shimizu; Katsuhisa Sakaguchi; Izumi Dobashi; Masanori Wada; Masayuki Yamato; Eiji Kobayashi; Mitsuo Umezu; Teruo Okano
Journal: Nat Commun Date: 2013 Impact factor: 14.919

39 in total

1. Organoids by design.

Authors: Takanori Takebe; James M Wells
Journal: Science Date: 2019-06-07 Impact factor: 47.728

2. Engineering of three-dimensional pre-vascular networks within fibrin hydrogel constructs by microfluidic control over reciprocal cell signaling.

Authors: Barbara Bachmann; Sarah Spitz; Mario Rothbauer; Christian Jordan; Michaela Purtscher; Helene Zirath; Patrick Schuller; Christoph Eilenberger; Syed Faheem Ali; Severin Mühleder; Eleni Priglinger; Michael Harasek; Heinz Redl; Wolfgang Holnthoner; Peter Ertl
Journal: Biomicrofluidics Date: 2018-06-20 Impact factor: 2.800

3. From arteries to capillaries: approaches to engineering human vasculature.

Authors: Sharon Fleischer; Daniel Naveed Tavakol; Gordana Vunjak-Novakovic
Journal: Adv Funct Mater Date: 2020-06-11 Impact factor: 18.808

4. Microvessel Network Formation and Interactions with Pancreatic Islets in Three-Dimensional Chip Cultures.

Authors: Mia H Rambøl; Edward Han; Laura E Niklason
Journal: Tissue Eng Part A Date: 2020-01-20 Impact factor: 3.845

Review 5. A Decade of Organs-on-a-Chip Emulating Human Physiology at the Microscale: A Critical Status Report on Progress in Toxicology and Pharmacology.

Authors: Mario Rothbauer; Barbara E M Bachmann; Christoph Eilenberger; Sebastian R A Kratz; Sarah Spitz; Gregor Höll; Peter Ertl
Journal: Micromachines (Basel) Date: 2021-04-21 Impact factor: 2.891

6. 3D self-organized microvascular model of the human blood-brain barrier with endothelial cells, pericytes and astrocytes.

Authors: Marco Campisi; Yoojin Shin; Tatsuya Osaki; Cynthia Hajal; Valeria Chiono; Roger D Kamm
Journal: Biomaterials Date: 2018-07-12 Impact factor: 12.479